PL157489B1 - Shaft lining component in the inlet region - Google Patents

Abstract

1. The segment of a shaft support within the shaft entry, in which the layer from the inside of the shaft and the shaft entry is made from concrete, and to the shaft wall permanent timbering is foxed characterized in that it has rings (4) positioned horizontally fixed in the formation (3) with anchors (7) and which have the shape, approximately elliptical, which entails the shaft (1) and the shaft entry (2), and between the rings (4) and the formation (3) there is an external foundation layer (5), and the foundation interlayer (6) is placed between the rings (4), the external foundation layer (5) and the surfaces (10) of the shaft (1) and the shaft entry (2) is made from concrete, and the rings (4) within the surface of the entry (2) to the shaft (1) have cut-out sections at the width of this shaft (2), and the ends of these rings (4) are joined with the closest sections (6) of the shaft entry (2).<IMAGE>

Description

The subject of the invention is a shaft casing segment within the shaft inlet, useful in the mine shaft casing.

Currently, sections of mine shafts within shaft inlets are critical points of shafts, very susceptible to destructive forces resulting from the impact of the surrounding rock mass. The sections of shafts in this region have so far been made as a uniform wall of constant thickness, the outer contour of which in the cross-section roughly reflects the shape of the new shaft and shaft inlet. In practice, most often this wall is made of brick and / or concrete over the entire cross-section.

Such a solution of the shaft section in the area of the shaft inlet is disadvantageous, both in terms of the shape of the wall and the material used in the wall thickness. There is no permanent, reliable connection between the shaft wall and the shaft inlet wall. This causes, especially in the case of difficult geological conditions of the sea at great depths, serious problems with maintaining the stable condition of the shaft in the vicinity of shaft inlets, and often the destruction of these workings and the necessity of their reconstruction or reconstruction. This work is very time-consuming and costly.

The shaft casing segment in the area of the shaft inlet has a layer made of concrete from the inside of the shaft and the shaft inlet to the shaft wall, the final casing is attached to the shaft inside. It is characterized by the fact that it has horizontally arranged rings fastened with anchors in the rock mass. These rings are approximately elliptical in shape and include the shaft and the shaft inlet, and within the surface of the shaft inlet, they have cut sections along the width of the inlet, and the ends of these rings are connected to the closest shapes of the shaft inlet. Between the rings and the rock mass there is an external load-bearing layer, and the intermediate load-bearing layer between the rings, the external load-bearing layer and the surfaces of the shaft and shaft inlet is made of concrete. Preferably, the outer bearing layer is made of reinforced concrete blocks. The external load-bearing material can also be made of mesh or concrete. Such a structure of the shaft segment in the area of the shaft, thanks to the connection with rings, the shaft wall and the shaft shaft, and thanks to the favorable shape of the shaft in this area, ensures high strength and resistance to

157 489 rock mass action, thus reducing the risk of destabilization of the shaft fragments in this area.

The gutter is explained in more detail in the embodiment on the basis of the drawing in which Fig. 1 shows a vertical section of a shaft housing segment within the shaft inlet, and Fig. 2 a horizontal section of this shaft housing segment.

The shaft casing segment 1 in the area of the shaft inlet 2 has horizontally arranged rings 4 fastened with anchors 7 in the rock mass 3, the rings 4 having the shape of an ellipse and covering the shaft 1 and the shaft socket 2. Within the surface of the shaft inlet 2 to the shaft 1, the rings 4 are cut out the sections along the width of this inlet 2 and the ends of these rings 4 are attached with the nearest shapes 8 of the shaft 2 between the ring 4 and the outer supporting layer 5 and the surfaces 10 of the shaft 1, the shaft inlet 2 is made of concrete. Moreover, the final housing 9 is attached to the surface 10 of the shaft 1.

157 439

Fig 1

Department of Publishing of the UP RP. Circulation of 90 copies

Price PLN 5,000.

Claims (4)

Patent claims 1. The shaft casing segment in the area of the shaft inlet, where the td layer inside the shaft and the shaft inlet is made of concrete, and the final casing is attached to the shaft wall, characterized by horizontally arranged rings (4) fixed with anchors (7) in the rock mass ( 3) and having the shape, approximately, of an ellipse, including the shaft (1) and the shaft socket (2), and between the rings (4) and the rock mass (3) there is an external load-bearing vortex (5), and an intermediate load-bearing layer (6) ) the outer bearing layer (5) between the rings (4) and the shaft (1) and shaft inlet (2) surfaces (10) is made of concrete, with the rings (4) in the groove of the shaft inlet (2) The shaft (1) has indented sections across the width of the inlet (2), and the ends of these rings (4) are connected to the nearest profiles (8) of the shaft inlet (2). 2. Segment according to claim A method as claimed in claim 1, characterized in that the outer supporting layer (5) is made of reinforced concrete sections. 3. Segment according to claim The process of claim 1, characterized in that the outer carrier layer is a mesh. 4. Segment according to zastzz. 1, characterized by y y m, that the nαΓsnwę supporting zennątzzta (5) is concrete. * * *